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15th June 2015, 04:48 PM
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Join Date: Apr 2013
Re: Syllabus Of Mechanical Engineering In IIT Kanpur

Here I am providing the B.tech Mechanical Engineering syllabus of IIT Kanpur which you are looking for .
IIT Kanpur B.tech Mechanical Engineering syllabus
MECHANICAL ENGINEERING
PROFESSORS
Banerjee BN bnb 7081
Biswas Gautam gtm 7656
Choudhury SK choudhry 7270
Deb K deb 7205
Dhande SG sgd 7170
(Joint appointment with CSE)
Dixit PM pmd 7094
Eswaran V eswar 7429
Ghoshdastidar PS psg 7019
Hatwal H hhatwal 7098
Jain V K vkjain 7916
Kalra MS msk 7527
Kishore NN nnk 7049
Kumar P prkumar 7048
Mallik AK akmallik 7098
Munshi P pmunshi 7243
Muralidhar K kmurli 7182
Pundir BP pundir 7684
Vyas NS vyas 7040
(Head)
Convenor, DUGC : P. S. Ghoshdastidar psg 7019
Convenor, DPGC : Eswaran V eswar 7429
Faculty Counsellor : P. Venkitanarayanan venkit 7528
The Department of Mechanical Engineering trains students in the methods of engineering science
and in the application of these methods to conceive, analyse and design engineering systems.
The professional programme of the department includes a deeper study of a number of engineering
ASSOCIATE PROFESSOR
Sarkar S subra 7942
Panigrahi PK panig 7686
Reddy NV nvr 7362
Dasgupta B dasgupta 7095
ASSISTANT PROFESSORS
Agarwal AK akag 7982
Basu S basu 7506
Bhattacharya S bhattacs 6056
Bhattacharya B bishakh 7824
Das Malay mldas 7359
Dutta A adutta 7995
Khandekar S samkhan 7038
Kar KK kamalkk 7687
(Joint appointment with MSP)
Mahesh S smahesh 7060
(Joint appointment with AE)
Ramkumar J
Saxena A anupams 7988
Saha AK aksaha 7869
Venkitanarayanan P venkit 7528
Sharma I ishans 6152
Sharma B L bls 6173
Wahi P wahi 6092
EMERITUS PROFESSOR
Ghosh A amitabha 7010
EMERITUS FELLOW
sciences (to which the students are introduced at the core curriculum level), theoretical and
experimental solution of physical problems, and design of systems relevant to the contemporary
industrial world. The areas introduced by the department include Energy Conversion and Power
Systems, Heat Transfer and Fluid Mechanics, Mechanics of Solids and Stress Analysis, Manufacturing
Science, Industrial Engineering, Automatic Controls and Engineering Design and Optimisation.
Laboratory experience is considered an important part of the mechanical engineering programme.
There are course-oriented laboratories where a student does experimental work leading to a better
understanding of physical phenomena.
The department of mechanical engineering has a postgraduate programme leading to M. Tech.
and Ph. D. degrees in four broad streams: Solid Mechanics and Design, Fluid Mechanics and
Thermal Sciences, Manufacturing Sciences and Mechatronics. Within these streams, new areas
which receive vigorous attention include Fracture mechanics, Experimental mechanics, Flow control,
Optical measurements, Alternative fuels, Computer Aided Manufacturing, Computational Fluid
Dynamics and Heat Transfer, Genetic Algorithms, Smart Materials, Rapid prototyping, Microscale
transport, Micro measurements and sensors, Nanomechanics, and Mechatronics. In the postgraduate
programme, the emphasis is on the development of a broad background in a particular stream
followed by a deeper study of a research topic.
CURRENT COURSE STRUCTURE FOR B.TECH. STUDENTS
MECHANICAL ENGINEERING
ME 100 Introduction to Profession ME 251N Graphics In Mechanical Design
ME 231N Fluid Mechanics ME 251N Engineering Design and Graphics
ME 321N Advanced Mechanics of Solids ME 341N Heat & Mass Transfer
ME 352N Theory of Mechanisms & Machines ME 361N Manufacturing Technology
Open Elective-I
ME 301N Energy Systems-I ME 351N Design of Machine Elements
ME 353N Dynamics &Vibration of Machinery ME 371N M.E. Laboratory I
Departmental Elective-I
Science Elective-I
ME 300 Summer Industrial Training ME 401N Energy Systems II
ME 451N Project-I ME 453N Automation & Contol
ME 471 M.E. Laboratory II Open Elective-II
Science Elective-II
ME 452N Manufacturing Systems ME 461N Project-II
Open Elective-3
Departmental Elective-2
Departmental Elective-3
HSS-4
C
O
U
R
S
S E M E S T E R
FIRST SECOND THIRD FOURTH FIFTH SIXTH SEVENTH EIGHTH
PHY102 PHY101 MTH203 HSS-I-2 HSS-II-1 SE-1 SE-2 HSS-II-2
MTH101 CHM101 CHM201 ESO204 ME321 ME301 ME300 ME452
TA101 MTH102 TA201 ESO214 ME341 ME351 ME401 ME461
ESC102 ESC101 ESO202 ME231 ME352 ME353 ME451 DEL-2
PE101 PHY103 ESO210 ME251 ME361 ME371 ME453 DEL-3
HSS-I-1/ ME100 OE-1 DEL-1 ME471 OE-3
ENG112N PE102 OE-2
COURSE DESCRIPTION
ME 100 INTRODUCTION TO MECHNICAL ENGINEERING
Historical perspective; description of devices used in power production; energy
storage and transmission; manufacturing and automation; new materials; future
trends including interfacing with microprocessors, sensors, actuators, and virtual
systems; demonstration and hands-on laboratory.
ME 231N FLUID MECHANICS
Reynolds Transport Theorem; Integral form of continuty, momentum and energy;
Eulerian and lagrangian view-points; Constitutive relations; Navier Stokes
equations: Exact solutions; Potential flow; Boundary layer theory; Separation
and drag; Turbulent flow: Reynolds averaged equations; Turbulent flows in pipes
and channels; compressible flows.
ME 251N ENGINEERING DESIGN AND GRAPHICS Prereq. TA 101N
Theory of general engineering design; conceptual design; embodiment design
involving layout and form; designing to standard; basic sketching; machine
drawing including fits and tolerances, machine elements, assembly drawing
and list of parts; geometric modeling; project based lab session including
sketching and geometric modelling using a software package; drawing project
on reverse engineering.
ME 300 SUMMER INDUSTRIAL TRAINING
Six weeks training after the sixth semester in the Industry.
ME 301N ENERGY SYSTEMS-I
Energy resources: Fossil fuels, Hydrogen energy, Solar thermal, Nuclear fuels,
and renewable energy sources. Direct energy conversion: Solar Photo voltaic,
MHD power, Fuels cells. Energy Release: Combustion of fossil fuels, Adiabatic
flame temperature, Modern boilers, mountings and accessories. IC engine
fundametals: SI and CI Engines, real cycles. Combustion in SI and CI Engines:
performance and trail of Engine. Refrigiration and Airconditioning: Reciprocating
single and multi-stage compressors, Refrigeration cycles, Psychrometric processes,
Airconditioning systems.
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ME 311 REFRIGERATION& AIR CONDITIONING Prereq. ME 301, #
Refrigeration Cycles: vapour absorption and thermo-electric refrigeration systems.
Refrigerants: multistage refrigeration. Load calculations. Design of various
elements of a refrigeration unit, psychrometry. Applications : ice plant, watercoolers,
cold storage, comfort airconditioning etc.
ME 321N ADVANCED MECHANICS OF SOLIDS Prereq. ESO 204
Continuum concepts; Stress field (Cauchy’s principle, equilibrium equation);
Deformation (strain tensor, compatibility); Principle of virtual work; Constitutive
equations; Uniqueness and superposition; Boundary value problems in plane
stress and plain strain, torsion of non circular cross section, Kelvin problem
and 3-D problems; Failure theories, plasticity, fracture mecahnics; Stress waves
in 1-D; Large deformations; Numerical and Experimental methods.
ME 341N HEAT AND MASS TRANSFER Prereq. ME 231N
Conduction: 1-D & 2-D Steady State conduction with and without heat sources-
Analytical and Numerical Solutions; 1-D & 2-D Transient Conduction- Analytical
and Numerical Solutions; Convection; Velocity, Thermal and Concentration
Boundary Layers; Heat Transfer in External Flows; Heat Transfer in Internal Flows;
Turbulent Heat Transfer; Free Convection; Boiling & Condensation; Heat
Exchangers; Radiation: Black Body Radiation, The Gray Surface; Radiation
shields.
ME 351N DESIGN OF MACHINE ELEMENTS Prereq. ME 251
Material and manufacturing in design; materials selection; reliabilty based
design; modes of failure, failure theories; fracture and fatique; analysis synthesis
and selection of machine component including spring, joining and fastening
methods; shaft, keys, coulings, bearing and lubrication, brakes, and gears;
project based lab session involving analysis and design of machine using software
packages.
ME 352N THEORY OF MECHANISMS AND MACHINES
Kinematic pair, diagrams and inversion. Mobility and range of movement.
Displacement velocity and acceleration analysis of planar linkages. Dimensional
synthesis for motion, path and function generation. Cam profile synthesis. Gears,
Dynamic force analysis, flywheel, inertia forces and balancing for rotating and
reciprocating machines.
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ME 353N DYNAMICS AND VIBRATIONS OF MACHINERY
Three dimensional motion of rigid bodies kinematics and kinetics. Gyrodynamics.
Vibrations of single, two and multiple degrees of freedom systems, free and
forced vibrations; Time and frequency domain analysis, Free vibration of one
dimensional continuous systems, approxi-mate methods.
ME 355 INTRODUCTION TO TRIBOLOGY Prereq. ESO 212
The tribological system: Common modes of failure and common solutions.
Theories of friction and wear; Lubrication, Properties of lubricants. Boundary,
hydrodynamic, hydrostatic, elasto-hydrodynamic lubrication and bearings based
on these principles. Thermo-elastic deformation and fluid sealing. Lubrication
methods.
ME 356 ANALYSIS AND SYNTHESIS OF LINKAGES Prereq. ME 252
Advanced techniques of kinematic analysis and synthesis of mechanisms. Spatial
kinematics and space mechanisms. Error analysis. Optimization techniques and
computer applications in synthesis of mechanisms. Dynamic, elastodynamic and
kineto-elastodynamic analysis.
ME 358 AUTOMOTIVE MECHANICS
Reciprocating automotive engines including their lubricating and cooling systems,
ignition and electrical systems, carburation and fuel injection systems, fuel
supply system, transmission system, breaking system, steering, chassis and
suspension.
ME 359 INTERNAL COMBUSTION ENGINES
Classification, Construction, Valve arrangements. Fuels, Fuel air cycle. Combustion,
Effect of engine variables, Combustion chambers, Carburation and fuel injection,
Knocking. Engine cooling, Friction and lubrication Supercharging. Wankel engine.
Testing and performance. Pollution.
ME 360 COMPUTER AIDED MANUFACTURING
Direct numerical control (DNC) and computer numerical control (CNC), adapative
control of manufacturing processes. Manufacturing system concepts. Computer
processes monitoring and control, off-line use of computers. Computer aided
design. Computer-process interface, programming, introduction to FMS.
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ME 361 MANUFACTURING TECHNOLOGY Prereq. TA 202
Introduction to manufacturing processes, Metal casting; Foundry automation.
Plastic deformation; load estimation: High velocity forming; defects. Metal
cutting: tool specification system. Merchants’ theory; Tool life; Economics of
machining. Mechanics of grinding. Common shaping processes for plastics;
defects and product design. Joining processes, solidification of welds, TIG, MIG,
resistance welding; design considerations and weld quality. Unconventional
machining processes, RP processes. Rapid tooling techniques. Metrology: limits,
fits and tolerance. Automated inspection and CMM; Selection of manufaturing
processes for a given product.
ME 363 DESIGN OF MACHINE TOOLS
Analysis of machine tool systems from the point of view of kinematics, strength
and rigidity. Design of drive systems. Design of machine tool structures, static
and dynamic points of view. Design of spindles, bearings, slides and guides.
Control systems for machine tools. Design aspects of conventional machine
tools and case studies.
ME 365 NUMERICAL CONTROL OF MACHINE TOOLS
Data processing machines. Continuous sampled data on digital control systems.
Positioning, straight cut and contouring control systems. Numerical control
application. Machine tools and their relation to numerical control. Manual and
computer aided programming, specialized manufacturing applications.
ME 371 MECHANICAL ENGINEERING LAB I Prereq.: ESO 214, ME 361, ME 231
Experimentation in machine dynamics, Materials, Manufacturing Sciences and
Fluid mechanics.
ME 373 MEASUREMENT AND CONTROL OF FLOW SYSTEMS
Similarity, errors, dynamic response, Pitot tube, hot-wire anemometer, laser
Doppler velocimeter, optical techniques for field measurement, image procesing,
volume-averaged measurement, uncertainty analysis. Signal processing and
compensation for probe characteristics, data acquisition, feedback control,
adaptive control, practical configurations, lab work.
For detailed syllabus , here is the attachment;
Attached Files
File Type: pdf IIT Kanpur B.tech Mechanical Engineering syllabus.pdf (72.9 KB, 632 views)


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